KR930001608A

KR930001608A - Apparatus and method of digital cellular overlay network

Info

Publication number: KR930001608A
Application number: KR1019920010261A
Authority: KR
Inventors: 빅터 밀러 로버트; 스튜어트 무어 빅터; 켄트 페이트 토마스
Original assignee: 죤 디. 크레인; 인터내셔널 비지네스 머신즈 코포레이션
Priority date: 1991-06-12
Filing date: 1992-06-11
Publication date: 1993-01-16
Also published as: TW197550B; DE69221677T2; CN1027481C; EP0521610A2; EP0521610A3; US5404392A; KR960015856B1; EP0521610B1; CN1069154A; JP2507217B2; JPH05153041A; DE69221677D1

Abstract

내용 없음No content

Description

Apparatus and method of digital cellular overlay network

본 내용은 요부공개 건이므로 전문내용을 수록하지 않았음Since this is an open matter, no full text was included.

제1도는 본 발명에 의해 고찰된 바와 같이 셀룰러 데이타 네트워킹(CDN)을 지원하기 위해 필요한 장비를 포함하고 있는 간단한 셀룰러 전화 사이트의 블럭 다이어그램.1 is a block diagram of a simple cellular telephone site including the necessary equipment to support cellular data networking (CDN) as contemplated by the present invention.

제2도는 본 발명에 의해 고찰된 바와 같이 CDN 기술이 실시되는 디지탈 셀룰러 오버레이 네트워크(DCON)의 도시도.2 is a diagram of a digital cellular overlay network (DCON) in which CDN technology is implemented as contemplated by the present invention.

제3도는 본 발명의 일 실시예에 따라 DCON의 디지탈 이동 전화 스위칭국(DMTSO)을 운용하는데 사용되는 한 세트의 테이블의 도시도.3 illustrates a set of tables used to operate a digital mobile telephone switching station (DMTSO) of a DCON in accordance with one embodiment of the present invention.

제4도는 제1도에 도시한 셀 사이트의 상세 도시도.4 is a detailed view of the cell site shown in FIG.

제10도는 본 발명의 서술에 따라 DCON에서 CDN을 지원하도록 고안된 모든 용융프로그램, 호스트, DMTSO, 셀 사이트, 데이타 무선 및 에뮬레이터 소프트웨어내에서 실행되는 한 세트의 처리단계를 도시하는데, 특히 제8도에 도시한 메시지 흐름 구조를 지원하는 특정 처리 단계의 도시도.FIG. 10 shows a set of processing steps executed in all melt programs, hosts, DMTSO, cell sites, data radios and emulator software designed to support CDN in DCON in accordance with the description of the present invention, and particularly in FIG. An illustration of specific processing steps that support the illustrated message flow structure.

제11도는 본 발명의 지시에 따라 DCON에서 CDN을 지원하도록 고안된 모든 데이타 무선에서 동작하는 에뮬레이터 소프트웨어, 상기 무선 그 자체, 셀 사이트, DMTSO, 호스트 및 응용 프로그램에 의해 실행되는 한 세트의 처리단계를 도시하는데, 특히 제9도에 도시한 메시지 흐름 구조를 지원하는 특정 처리 단계의 도시도.11 shows a set of processing steps executed by the emulator software, the radio itself, the cell site, the DMTSO, the host and the application program operating on all data radios designed to support CDN in the DCON according to the instructions of the present invention. In particular, a diagram of a particular processing step that supports the message flow structure shown in FIG.

Claims

8. A method for performing Cellular Data Networking (CDN) in an Advanced Telephone System (AMPS), wherein the AMPS is one of a predetermined set of communication channels. A set of cellular telephone voice transceivers tuned to and means for coupling each transceiver in the transceiver set to an antenna to facilitate performing duplex wireless communication over the channel set, wherein The method comprises (a) identifying unused and unusable time slots with the AMPS on each channel, and (b) the unused identified in step (a) for data transmission purposes. And assigning a selected timeslot that is not available.

2. The method of claim 1, wherein identifying comprises: (a) determining which of the channels in the AMPS are not used by the voice transceiver, and (b) being used by a voice transceiver. Non-placing each channel into an assignment pool to which a channel can be assigned for data transfer purposes.

3. The method of claim 2, wherein the assigning step comprises the steps of: (a) selecting an available channel from the pool to be used for data transmission purposes; (b) tuning a data transceiver to a selected channel; c) transmitting data over the data transceiver to the selected channel.

2. The cellular data networking of claim 1 wherein the identifying step further comprises sensing at least one RF signal in a channel associated with a voice transceiver of the voice transceiver set of the cellular telephone voice transceiver set. How to do the.

5. The cellular data as claimed in claim 4, wherein the assigning step further comprises analyzing the RF signal sensed in the identifying step to determine which of the channels assigned to each voice transceiver is not used. How to do networking.

4. The method of claim 3, further comprising the steps of: (a) determining whether a particular voice transceiver in the set of cellular telephone voice transceivers tuned to the optional channel for data transmission purposes requires an optional channel; and (b) the specific voice transceiver Terminating any data transmission on the selected channel whenever is determined to require the selected channel.

7. The method of claim 6, wherein the method additionally comprises removing the selected channel from the allocation channel whenever the particular voice transistor is determined to require a selected channel. .

7. The method of claim 6, wherein the determining step further comprises sensing an RF signal on a channel associated with the particular voice transceiver in the cellular telephone voice transceiver set.

In an apparatus for performing Cellular Data Networking (CDN) in an Advanced Mobile Telephone System (AMPS), the AMPS is selected from a predetermined set of communication channels. A set of cellular telephone voice transceivers tuned to one, and means for coupling each transceiver in the transceiver set to an antenna to facilitate duplex wireless communication over the channel set, The apparatus is coupled to (a) means for identifying unused and unusable time slots by the AMPS on each channel, and (b) means for identifying, selected and not used and unavailable for data transfer purposes. Means for performing cellular data networking (CDN) comprising means for allocating time slots.

10. The apparatus of claim 9, wherein the means for identifying comprises: (a) means for determining which channel of the AMPS is not used by the voice transceiver, and (b) each channel not used by a voice transceiver. And means for locating a channel to an allocation pool to which a channel can be allocated for data transmission purposes.

11. The apparatus of claim 10, wherein the means for allocating comprises (a) means for selecting an available channel from the pool to be used for data transmission purposes, (b) a set of data transceivers, and (c) a set of data transceiver sets. And apparatus for performing cellular data networking (CDN) further comprising means for tuning a particular data transceiver to a selected channel.

12. The digital computer of claim 11, wherein the means for assigning is coupled to the at least one RF sensor and capable of analyzing RF sensor input to determine which of the channels assigned to each voice transceiver is not used. And additionally comprising cellular data networking (CDN).

12. The apparatus of claim 11, wherein the apparatus comprises: (a) means for determining whether a particular voice transceiver of the set of cellular telephone voice transceivers tuned to an optional channel for data transmission purposes requires an optional channel, and (b) to request a selected channel Means for terminating any data transmission on the selected channel each time the particular voice transceiver is determined, (C) means for determining each time the particular voice transceiver is determined to request a selected channel and the means for terminating And means for removing the selected channel from the allocation pool coupled to the means coupled to the apparatus.

10. An apparatus for performing cellular data networking (CDN) of an advanced mobile telephone system (AMPS), wherein the AAMPs comprise a set of cellular telephone voice transceivers, each tuned to one of a set of predetermined communication channels, And means for coupling each transceiver in the transceiver set to Antane to facilitate performance of two-way wireless communication. The apparatus comprises (a) a set of sets that can each be used in place of the transceivers of the voice transceiver set. A CDN data transceiver; (b) a set of RF sensors for detecting the presence of an RF signal on a channel tuned to a predetermined transceiver of said voice transceiver set, and (c) said RF sensor set. Determine an RF signal on a channel tuned to a specific transceiver of the voice transceiver set and use an unused time slot. Apparatus for performing Cellular Data Networking (CDN) that includes analyzer means for selectively assigning a data transceiver to occupy the same frequency accompanied with said particular transceiver in data transmission purposes.

15. The apparatus of claim 14, wherein the analyzer means additionally comprises means for maintaining a channel of a record in the AMPS that is not actively used by the cellular voice transceiver set based on input from the RF sensor set. An apparatus for performing cellular data networking (CDN) comprising.

15. The cellular data networking of claim 14, wherein said analyzer means additionally comprises means for switching off an active data accompanying transceiver whenever a data carrying transceiver operating at the same frequency requires a channel. Device for performing (CDN).

In a method for performing Cellular Data Networking (CDN) in an Advanced Mobile Telephone System (AMPS), the AMPS is selected from a predetermined set of communication channels. A set of cellular telephone voice transceivers tuned to one and means for coupling each transceiver in the transceiver set to an antenna to facilitate duplex wireless communication over the channel set, The method includes (a) detecting the presence of an RF signal on the channel set, (b) the presence of an RF signal on a channel tuned to a particular transceiver of the voice transceiver set from the presence of an RF signal detected on the channel set. (C) occupying the same frequency as the particular transceiver of a time slot not used for data transmission purposes; To a method for performing Cellular Data Networking (CDN) that includes the step of selectively assigning a data transceiver accompanying associated with the particular transceiver.

18. The method of claim 17, wherein the method is actively performed by the cellular voice transceiver set based on input from the RF sensor set that is not actively utilized by the cellular voice transceiver set based on input from the RF sensor set. And maintaining a channel of a record in the AMPS that is not used.

19. The method of claim 18, wherein the method additionally comprises cellular data networking (CDN) including switching off the active data-bearing transceiver whenever the companion voice transceiver requires a channel. How to do it.

Digital cellular overlay networking to support the implementation of cellular data networking (CDN) between a set of data radios (DRs) and host processors in the APS range in an underlying Advanced Wireless Telephony System (AMPS). DCON), wherein the AMPS comprises a set of coll sites, each cell site having a set of cellular telephone voice transceivers, each tuned to one of a set of selected communication channels; Means for coupling each transceiver of the transceiver set to an antenna so as to facilitate bidirectional wireless communication on the channel set that is located within a range of AMPS and each having a DR, wherein the digital servo overlay network comprises (a) A host system running application software and capable of data communication with a data radio of the data radio set. Means and (b) between the host processing means for managing a data network between the host processing means and each cell site and the set of cell sites included in the AMPS between the set of cell sites included in the AMPS. A digital cellular overlay network (DCON) comprising a digital mobile purifier switching station (DMTSO).

21. The system of claim 20, wherein the DMTSO is operative to receive a message from the host processing means and direct the message to a host specified target data radios via a cell site where a target data radio is located. Digital Cellular Overlay Network (DCON).

22. The method of claim 21, wherein the DMTSO is operative to receive a return message from the data radio, and is additionally operative to send the return message to the host processing means, wherein the DMTSO is adapted to identify a data radio that transmits a predetermined return message. Digital cellular overlay network (DCON), including.

23. The apparatus of claim 22, wherein the DMTSO comprises data network manager means between the host processing means and the set of cell sites by using information accessible to the network manager means indicating the most likely cell to which a data radio can be reached. Digital Cellular Overlay Network (DCON).

23. The digital cellular overlay network (DCON) of claim 22, wherein the DMTSO receives an acknowledgment signal from the cell to which the message is directed if the message is actually received only by a particular data radio without error. .

Digital cellular overlay networking to support the implementation of cellular data networking (CDN) between a set of data radios (DRs) and host processors in the AMPS range in an underlying Advanced Wireless Telecommunication System (AMPS). A method of operating a DCON, wherein the AMPS comprises a set of cell sites, each cell site tuned to a set of cellular telephone voices, each tuned to one of a predetermined set of communication channels. A transceiver and means for coupling each transceiver of the transceiver set to an antenna to facilitate the performance of two-way wireless communication on the channel set located within the AMPS range and each having a DR, the method comprising: (a) Combine the data processed by the application running on the host processor with a unique data radio identification signal. The key comprises the steps of: (b) outputting a message comprising a radio identification signal and data coupled under control of the host processor to a selected target digital vehicle radio switching station (DMTSO). How to operate).

27. The method of claim 25, wherein outputting the message comprises (a) including a DMTSO identification signal to identify a target DMTOS as part of the message, and (b) describing the beginning and end of the message directed to the target DMTSO. a method for operating a digital cellular overlay network (DCON) additionally comprising embedding said message between a header for information and a first trailer packet to delineate. .

27. The method of claim 26, wherein the method comprises: (a) removing one header packet, one trailer packet, and a DMTOS identification signal from the message at a target DMTOS, and (b) at the target DMTOS, the set of cells Determining which of the data to send, (c) at the target DMTOS, formulating a new message comprising a radio identification signal coupled with a unique target cell site identification signal, and (b) a target Inserting the new message between another header for information and another trailer packet to describe the beginning and end of the message destined for the cell site, and (e) outputting the new message to the target cell site specified in the new message. And operating a digital cellular overlay network (DCON).

28. The method of claim 27, wherein said determining uses a path table to operate a digital cellular overlay network (DCON) performed by said DMTOS.

Digital cellular overlay networking to support the implementation of cellular data networking (DCN) between a set of data radios (DRs) and host processors in the AMPS range in an underlying Advanced Wireless Telecommunication System (AMPS). A method of operating a DCON, wherein the AMPS comprises a set of cell sites, each cell site having a set of cellular telephone voices tuned to one of a predetermined set of communication channels. A transceiver and means for coupling each transceiver of the transceiver set to an antenna to facilitate the performance of two-way wireless communication on the channel set located within the AMPS range and each having a DR, the method comprising: (a) Data processed by an application associated with the data radio using data radio emulator software Combining a unique data radio identification signal, and (b) outputting a message comprising the radio identification signal and data coupled under the control of the emulator software to the data radio, the digital cellular overlay network (DCON); How to let.

30. The method of claim 29, wherein the method is (a) transmitted by the data radio to the home cell site where the data radio is located, a dotting sequence, word sync information, and Formalizing a new message including error detection / correction code information, and (b) for a busy bit condition code characterized in that a new message is sent to the home cell site by the data radio. And monitoring the home cell site transmission for the home cell site, and (c) sending a new message to the home cell site upon detecting a call bit condition code indicating that the new message has been transmitted. A method of operating a cellular overlay network (DCON).

33. The method of claim 30, wherein the method further comprises: (a) continuously supervising a call bit condition code sent by the home cell site; and (b) if the code has changed the home cell site end. ends) A method of operating a digital cellular overlay network (DCON) additionally comprising recovering before a new message is sent.

32. The method of claim 31, wherein the method comprises: (a) performing bit synchronization at the home cell site using a dot sequence as part of the new message, and (b) at the home cell site, as part of the new message. Performing word synchronization using the transmitted word synchronization information, (c) performing an error detection / correction at the home cell site as specified by the error detection / correction information transmitted as part of the new message, ( d) removing dot sequence, word synchronization information and error detection / correction information from the new message received by the home cell site, (e) a unique identification signal for the home cell site, the home as part of the new message One header and one trailer packet describing the radio identification signal and data sent to the cell site and the beginning and end of the DMTOS message. Formulating a DMTOS message comprising the kit; and (f) sending the DMTOS message to a DMTOS coupled to a home cell site.

Digital cellular overlay networking to support the implementation of cellular data networking (CDN) between a set of data radios (DRs) and host processors in the AMPS range in an underlying Advanced Wireless Telecommunication System (AMPS). DCON), wherein the AMPS includes a set of cell sites, each cell site having a set of cellular telephone voice transceivers, each tuned to one of a set of selected communication channels; Means for coupling each transceiver of the transceiver set to an antenna to facilitate performance of two-way wireless communication on the channel set that is located within an AMPS range and each has a DR, wherein the digital cellular overlay network comprises (a) an interface; Generated by a cell site coupled to at least by a currency bit code each comprising a plurality of bits Digital cellular overlay networking (DCON) comprising a partially controlled cell site / data radio interface and (b) a data radio coupled to the interface and supervising each call bit code.

34. The method of claim 33, wherein the data transceiver uses one channel to transmit data to the cell site via the interface and to switch to another channel to additionally supervise the receipt of a call bit code through the interface. Digital cellular overlay networking (DCON) responsive to the call bit code to make a decision.

Operating Digital Cellular Overlay Networking (DCON) to support the implementation of cellular data networking (CDN) between a set of Data Radios (DRs) and a host processor within the AMPS range in high-end wireless telephony systems (AMPS). 10. A method, wherein the AMPS comprises a set of cell sites, each cell site having a set of cellular telephone voice transceivers, each tuned to one of a predetermined set of communication channels, and the AMPS. Means for coupling each transceiver of the transceiver set to an antenna to facilitate performing two-way wireless communication on the channel set that is located in range and each has a DR, the method comprising: (a) a cell coupled to an interface; Cell site / data radio interface, generated by the site, by a call bit code consisting of a plurality of bits, respectively At least in part and phase, (b) for controlling a method of operating a digital cellular overlay network (DCON) which via a data transceiver combination comprising supervise each call bit code to the interface.

36. The method of claim 35, wherein the method uses one channel to indicate when to send data to the cell site via the interface and when to switch to another channel to additionally supervise the receipt of pass bitcodes through the interface. And operating said data radio in a manner such as responding to said pass bit code to determine.

Digital cellular overlay networking to support the implementation of cellular data networking (CDN) between a set of data radios (DRs) and host processors in the AMPS range in an underlying Advanced Wireless Telecommunication System (AMPS). DCON), wherein the AMPS includes a set of cell sites, each cell site having a set of cellular telephone voice transceivers, each tuned to one of a set of selected communication channels; Means for coupling each transceiver of the transceiver set to an antenna to facilitate performance of two-way wireless communication on the channel set, each having a DR within the range of AMPS, wherein the digital cellular overlay network is coupled to the data transceiver. In a set, the signal strength and bit error programmed into the date ratio are measured against the reference. And, a digital ruler cellulose overlay network (DCON) including at least one data rate for determining whether a handoff (handoff) in a data rate based on the same signal strength and bit error rate as determined by the average day.

In Digital Cellular Overlay Networking (DCON) to support the performance of cellular data networking (CDN) between a set of data radios (DRs) and a host processor within the AMPS range in a high-end wireless telephone system (AMPS), The AMPS includes a set of cell sites, each cell site being located within the AMPS range with a set of cellular telephone voice transceivers, each tuned to one of a set of selected communication channels. Means for coupling each transceiver of the transceiver set to an antenna to facilitate performing two-way wireless communication on the channel set having DR respectively, wherein the digital cellular overlay network comprises (a) at least one data transceiver; (b) the at least one at a frequency at which one of the specific transceivers in the transceiver set is tuned to; Data transceiver of a digital cellular overlay network (DCON) comprising a sensor coupled to one set of the transmitter of each transceiver in said set of transceivers to determine when it is safe to switch to a desired one.

※ Note: The disclosure is based on the initial application.